The contribution of lower limbs to Pelvic Tilt: A baseline and postoperative full-body analysis

Marc Khalifé; Renaud Lafage; Bassel Diebo; Alan Daniels; Munish Gupta; Christopher Ames; Shay Bess; Douglas Burton; Khaled Kebaish; Michael Kelly; Han Jo Kim; Eric Klineberg; Lawrence Lenke; Stephen Lewis; Peter Passias; Christopher Shaffrey; Justin S. Smith; Frank Schwab; Virginie Lafage

doi:10.1016/j.gaitpost.2025.110013

The contribution of lower limbs to Pelvic Tilt: A baseline and postoperative full-body analysis

Marc Khalifé
, Renaud Lafage
, Bassel Diebo
, Alan Daniels
, Munish Gupta
, Christopher Ames
, Shay Bess
, Douglas Burton
, Khaled Kebaish
, Michael Kelly
, Han Jo Kim
, Eric Klineberg
, Lawrence Lenke
, Stephen Lewis
, Peter Passias
, Christopher Shaffrey
, Justin S. Smith
, Frank Schwab
, Virginie Lafage

Research output: Contribution to journal › Article › peer-review

Abstract

Background: Pelvic tilt (PT) has been a parameter of interest in biomechanics of spinal deformity for decades. It remains unclear how patients achieve different values of PT pre- and postoperatively. Research question: This study aimed at assessing the relative contribution of hip extension, knee flexion and ankle extension to PT, factoring malalignment and hip osteoarthritis (OA). Methods: This retrospective study included Adult Spinal Deformity (ASD) patients with preoperative full-body radiographs from a multicenter database, with a sub-analysis of patients with complete 1-year follow-up (1yFU). Age and PI-adjusted normative PT (NormPT) and offset from norm (OffPT) were calculated, as for sacro-femoral angle (SFA), knee flexion angle (KA) and ankle angle (AA). Multivariate linear regression models controlling for age, frailty, severe hip OA, pelvic incidence (PI), SFA, and KA were used to predict PT at baseline, and offset from NormPT. Another model was generated to predict PT change. Results: 600 patients at baseline and 336 with 1yFU were included. Mean age was 61 ± 15, 70.2 % were females and 40 % were revision cases. At baseline, regression analysis revealed that 0.9° increase in hip extension (SFA) and a 0.6° increase in knee flexion (KA) amounted to 1° increase in PT. Knee and ankle contribution to PT significantly increased for while hip extension decreased as TPA augmented (p < 0.001). Patients with low deformity compensated with hip extension, while knee flexion was the largest contributor of PT in high deformity patients: 70.7 % (44.7 – 111.9). Median contribution of knee flexion to PT was larger for patients who presented hip OA. Significance: This study demonstrated that PT is a phenomenon driven by extension of the hips and flexion of the knees and proposed values to predict PT from those two compensatory mechanisms. Magnitude of spinal deformity and hip OA alters the magnitude of SFA/KA contribution to PT.

Original language	English
Article number	110013
Journal	Gait and Posture
Volume	123
DOIs	https://doi.org/10.1016/j.gaitpost.2025.110013
State	Published - Jan 2026

Keywords

Hip extension
Knee flexion
Lower limb
Pelvic retroversion
Pelvic tilt
Sagittal malalignment

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10.1016/j.gaitpost.2025.110013

Cite this

Khalifé, M., Lafage, R., Diebo, B., Daniels, A., Gupta, M., Ames, C., Bess, S., Burton, D., Kebaish, K., Kelly, M., Kim, H. J., Klineberg, E., Lenke, L., Lewis, S., Passias, P., Shaffrey, C., Smith, J. S., Schwab, F., & Lafage, V. (2026). The contribution of lower limbs to Pelvic Tilt: A baseline and postoperative full-body analysis. Gait and Posture, 123, Article 110013. https://doi.org/10.1016/j.gaitpost.2025.110013

@article{08d4c89b7d4b41fa8dd7de63d834ce52,

title = "The contribution of lower limbs to Pelvic Tilt: A baseline and postoperative full-body analysis",

abstract = "Background: Pelvic tilt (PT) has been a parameter of interest in biomechanics of spinal deformity for decades. It remains unclear how patients achieve different values of PT pre- and postoperatively. Research question: This study aimed at assessing the relative contribution of hip extension, knee flexion and ankle extension to PT, factoring malalignment and hip osteoarthritis (OA). Methods: This retrospective study included Adult Spinal Deformity (ASD) patients with preoperative full-body radiographs from a multicenter database, with a sub-analysis of patients with complete 1-year follow-up (1yFU). Age and PI-adjusted normative PT (NormPT) and offset from norm (OffPT) were calculated, as for sacro-femoral angle (SFA), knee flexion angle (KA) and ankle angle (AA). Multivariate linear regression models controlling for age, frailty, severe hip OA, pelvic incidence (PI), SFA, and KA were used to predict PT at baseline, and offset from NormPT. Another model was generated to predict PT change. Results: 600 patients at baseline and 336 with 1yFU were included. Mean age was 61 ± 15, 70.2 \% were females and 40 \% were revision cases. At baseline, regression analysis revealed that 0.9° increase in hip extension (SFA) and a 0.6° increase in knee flexion (KA) amounted to 1° increase in PT. Knee and ankle contribution to PT significantly increased for while hip extension decreased as TPA augmented (p < 0.001). Patients with low deformity compensated with hip extension, while knee flexion was the largest contributor of PT in high deformity patients: 70.7 \% (44.7 – 111.9). Median contribution of knee flexion to PT was larger for patients who presented hip OA. Significance: This study demonstrated that PT is a phenomenon driven by extension of the hips and flexion of the knees and proposed values to predict PT from those two compensatory mechanisms. Magnitude of spinal deformity and hip OA alters the magnitude of SFA/KA contribution to PT.",

keywords = "Hip extension, Knee flexion, Lower limb, Pelvic retroversion, Pelvic tilt, Sagittal malalignment",

author = "Marc Khalif{\'e} and Renaud Lafage and Bassel Diebo and Alan Daniels and Munish Gupta and Christopher Ames and Shay Bess and Douglas Burton and Khaled Kebaish and Michael Kelly and Kim, \{Han Jo\} and Eric Klineberg and Lawrence Lenke and Stephen Lewis and Peter Passias and Christopher Shaffrey and Smith, \{Justin S.\} and Frank Schwab and Virginie Lafage",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2026",

month = jan,

doi = "10.1016/j.gaitpost.2025.110013",

language = "English",

volume = "123",

journal = "Gait and Posture",

issn = "0966-6362",

}

Khalifé, M, Lafage, R, Diebo, B, Daniels, A, Gupta, M, Ames, C, Bess, S, Burton, D, Kebaish, K, Kelly, M, Kim, HJ, Klineberg, E, Lenke, L, Lewis, S, Passias, P, Shaffrey, C, Smith, JS, Schwab, F & Lafage, V 2026, 'The contribution of lower limbs to Pelvic Tilt: A baseline and postoperative full-body analysis', Gait and Posture, vol. 123, 110013. https://doi.org/10.1016/j.gaitpost.2025.110013

TY - JOUR

T1 - The contribution of lower limbs to Pelvic Tilt

T2 - A baseline and postoperative full-body analysis

AU - Khalifé, Marc

AU - Lafage, Renaud

AU - Diebo, Bassel

AU - Daniels, Alan

AU - Gupta, Munish

AU - Ames, Christopher

AU - Bess, Shay

AU - Burton, Douglas

AU - Kebaish, Khaled

AU - Kelly, Michael

AU - Kim, Han Jo

AU - Klineberg, Eric

AU - Lenke, Lawrence

AU - Lewis, Stephen

AU - Passias, Peter

AU - Shaffrey, Christopher

AU - Smith, Justin S.

AU - Schwab, Frank

AU - Lafage, Virginie

PY - 2026/1

Y1 - 2026/1

N2 - Background: Pelvic tilt (PT) has been a parameter of interest in biomechanics of spinal deformity for decades. It remains unclear how patients achieve different values of PT pre- and postoperatively. Research question: This study aimed at assessing the relative contribution of hip extension, knee flexion and ankle extension to PT, factoring malalignment and hip osteoarthritis (OA). Methods: This retrospective study included Adult Spinal Deformity (ASD) patients with preoperative full-body radiographs from a multicenter database, with a sub-analysis of patients with complete 1-year follow-up (1yFU). Age and PI-adjusted normative PT (NormPT) and offset from norm (OffPT) were calculated, as for sacro-femoral angle (SFA), knee flexion angle (KA) and ankle angle (AA). Multivariate linear regression models controlling for age, frailty, severe hip OA, pelvic incidence (PI), SFA, and KA were used to predict PT at baseline, and offset from NormPT. Another model was generated to predict PT change. Results: 600 patients at baseline and 336 with 1yFU were included. Mean age was 61 ± 15, 70.2 % were females and 40 % were revision cases. At baseline, regression analysis revealed that 0.9° increase in hip extension (SFA) and a 0.6° increase in knee flexion (KA) amounted to 1° increase in PT. Knee and ankle contribution to PT significantly increased for while hip extension decreased as TPA augmented (p < 0.001). Patients with low deformity compensated with hip extension, while knee flexion was the largest contributor of PT in high deformity patients: 70.7 % (44.7 – 111.9). Median contribution of knee flexion to PT was larger for patients who presented hip OA. Significance: This study demonstrated that PT is a phenomenon driven by extension of the hips and flexion of the knees and proposed values to predict PT from those two compensatory mechanisms. Magnitude of spinal deformity and hip OA alters the magnitude of SFA/KA contribution to PT.

AB - Background: Pelvic tilt (PT) has been a parameter of interest in biomechanics of spinal deformity for decades. It remains unclear how patients achieve different values of PT pre- and postoperatively. Research question: This study aimed at assessing the relative contribution of hip extension, knee flexion and ankle extension to PT, factoring malalignment and hip osteoarthritis (OA). Methods: This retrospective study included Adult Spinal Deformity (ASD) patients with preoperative full-body radiographs from a multicenter database, with a sub-analysis of patients with complete 1-year follow-up (1yFU). Age and PI-adjusted normative PT (NormPT) and offset from norm (OffPT) were calculated, as for sacro-femoral angle (SFA), knee flexion angle (KA) and ankle angle (AA). Multivariate linear regression models controlling for age, frailty, severe hip OA, pelvic incidence (PI), SFA, and KA were used to predict PT at baseline, and offset from NormPT. Another model was generated to predict PT change. Results: 600 patients at baseline and 336 with 1yFU were included. Mean age was 61 ± 15, 70.2 % were females and 40 % were revision cases. At baseline, regression analysis revealed that 0.9° increase in hip extension (SFA) and a 0.6° increase in knee flexion (KA) amounted to 1° increase in PT. Knee and ankle contribution to PT significantly increased for while hip extension decreased as TPA augmented (p < 0.001). Patients with low deformity compensated with hip extension, while knee flexion was the largest contributor of PT in high deformity patients: 70.7 % (44.7 – 111.9). Median contribution of knee flexion to PT was larger for patients who presented hip OA. Significance: This study demonstrated that PT is a phenomenon driven by extension of the hips and flexion of the knees and proposed values to predict PT from those two compensatory mechanisms. Magnitude of spinal deformity and hip OA alters the magnitude of SFA/KA contribution to PT.

KW - Hip extension

KW - Knee flexion

KW - Lower limb

KW - Pelvic retroversion

KW - Pelvic tilt

KW - Sagittal malalignment

UR - https://www.scopus.com/pages/publications/105019332921

U2 - 10.1016/j.gaitpost.2025.110013

DO - 10.1016/j.gaitpost.2025.110013

M3 - Article

C2 - 41130118

AN - SCOPUS:105019332921

SN - 0966-6362

VL - 123

JO - Gait and Posture

JF - Gait and Posture

M1 - 110013

ER -

The contribution of lower limbs to Pelvic Tilt: A baseline and postoperative full-body analysis

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Keywords

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